Mice deficient in both Mn superoxide dismutase and glutathione peroxidase-1 have increased oxidative damage and a greater incidence of pathology but no reduction in longevity.
about
Inhibition of xanthine oxidase reduces oxidative stress and improves skeletal muscle function in response to electrically stimulated isometric contractions in aged miceIs the oxidative stress theory of aging dead?Beyond Diabetes: Does Obesity-Induced Oxidative Stress Drive the Aging Process?ROS, Cell Senescence, and Novel Molecular Mechanisms in Aging and Age-Related DiseasesBiochemical Genetic Pathways that Modulate Aging in Multiple SpeciesPhysiological consequences of complex II inhibition for aging, disease, and the mKATP channelDoes reduced IGF-1R signaling in Igf1r+/- mice alter aging?NADPH oxidases: key modulators in aging and age-related cardiovascular diseases?The hallmarks of agingNuclear Factor-Erythroid-2-Related Factor 2 in Aging and Lung FibrosisThioredoxins, glutaredoxins, and peroxiredoxins--molecular mechanisms and health significance: from cofactors to antioxidants to redox signalingLong-term supplementation with resveratrol alleviates oxidative stress but does not attenuate sarcopenia in aged miceMitochondria and oxidative stress in heart agingParadoxical Roles of Antioxidant Enzymes: Basic Mechanisms and Health ImplicationsSuppression of oxidative stress by resveratrol after isometric contractions in gastrocnemius muscles of aged miceElevated mitochondrial oxidative stress impairs metabolic adaptations to exercise in skeletal muscleHyperoxygenation attenuated a murine model of atopic dermatitis through raising skin level of ROSTesting the oxidative stress hypothesis of aging in primate fibroblasts: is there a correlation between species longevity and cellular ROS production?Vascular oxidative stress in aging: a homeostatic failure due to dysregulation of NRF2-mediated antioxidant responseROS function in redox signaling and oxidative stressSignal transduction by reactive oxygen speciesMitochondrial peptidase IMMP2L mutation causes early onset of age-associated disorders and impairs adult stem cell self-renewalUpdate on the oxidative stress theory of aging: does oxidative stress play a role in aging or healthy aging?European contribution to the study of ROS: A summary of the findings and prospects for the future from the COST action BM1203 (EU-ROS).The free-radical damage theory: Accumulating evidence against a simple link of oxidative stress to ageing and lifespan.Taking a "good" look at free radicals in the aging process.Antioxidant vitamins and mineral supplementation, life span expansion and cancer incidence: a critical commentary.A mild impairment of mitochondrial electron transport has sex-specific effects on lifespan and aging in mice.Early induction of oxidative stress in mouse model of Alzheimer disease with reduced mitochondrial superoxide dismutase activity.A stochastic step model of replicative senescence explains ROS production rate in ageing cell populationsMouse Models of Oxidative Stress Indicate a Role for Modulating Healthy Aging.Aging and energetics' 'Top 40' future research opportunities 2010-2013.Can rodent longevity studies be both short and powerful?Computational modelling of the regulation of Insulin signalling by oxidative stress.Mitochondrial DNA mutations in disease and agingQuercetin and cancer chemopreventionReactive oxygen species prevent imiquimod-induced psoriatic dermatitis through enhancing regulatory T cell functionAge-associated vascular oxidative stress, Nrf2 dysfunction, and NF-{kappa}B activation in the nonhuman primate Macaca mulatta.Attenuation of experimental colitis in glutathione peroxidase 1 and catalase double knockout mice through enhancing regulatory T cell functionLife-extending dietary restriction and ovariectomy result in similar feeding rates but different physiologic responses in grasshoppers
P2860
Q23918301-5C88B294-9A28-492B-9C0B-4DB9B80A26FDQ24645213-DA1C85D8-B077-4F99-938C-E3E128BF9261Q26738696-70F5363A-D23D-4833-8845-0E60AF8D5384Q26744325-8078B4B4-A28F-40EC-800F-325F4F023ECEQ26777407-12FBFA02-0F28-4D51-8034-5E7363FAF89CQ27002338-4FE0E8F3-E111-4E53-BCF6-3569FA8FCB75Q27314852-ECDCB626-0CDF-4866-990A-9E886F699E73Q28072348-8149A47A-66A6-431D-A2A0-5FC8E10ED02CQ28131641-CF427ECB-A077-45D8-BE3D-22FA8FD6B3DEQ28383171-518578E7-3BA7-44D6-A0A9-12A5A135AF62Q28389739-83DE7DE0-1D2C-403F-B4BA-1279975C1F9EQ28390560-E242A399-554D-42D8-8B34-0B6B803C364BQ28391449-B6CC778E-7F46-4358-8E46-1B7C642F9060Q28392715-54A23179-C687-4465-A17E-F19DA215A8ADQ28397026-D26DDA1A-40C2-4730-87E8-7DFB2E7BE301Q28536393-3CB7FC59-EAF8-45EB-8624-B0B81A6AD4AFQ28543509-B18D63CB-E097-4D31-876B-96983965B297Q28728880-3853DCAB-F195-4A67-8EA6-22236D7D373EQ29347088-E69F7810-F89D-40B6-98D8-08CDB06C4952Q29615229-C8754C3E-B7AC-4FDF-A562-7DFD598EFDB1Q29615230-0AB9AA4E-8D8B-4A9B-93C9-F8BC1F5B1BCCQ30501000-3B328AD8-14EC-4E9C-9656-66B51AF74A42Q33643276-45B4B561-1CA4-4078-952D-1A9D953E9287Q33761211-FD5C5E44-AA12-425B-A0C4-C023B870C9BAQ34025605-B6617933-6F3B-4D8A-87CE-EA2012BE7C7EQ34028033-CB77ACAB-C7DA-4FB4-86F7-0F8C97A21003Q34032328-E31ED196-1B05-4C5D-B74D-F69F5718C4B7Q34058380-89C44F74-DEDF-4AAD-A1A0-B52846CC6A3DQ34140104-8CCE838A-B8F5-473C-B8B6-CFAB30FEA882Q34168577-7C374F60-0515-457D-8F8A-844504A21C69Q34300952-2CE398C0-7DE4-42A4-B2DF-6AF8DEE26682Q34341924-3CBA8C98-BBEB-4AAB-BFF3-6903C42C1269Q34584619-D13D550F-720E-4B76-8796-D8B10DC896C3Q34738870-17A1892D-8EEE-4E69-884F-5165833FC224Q35018267-2BEA2422-24F2-4306-BAB2-43F676DE15AEQ35106541-294EA7E9-4C25-42A3-88B2-E302708EEC83Q35114429-D9996435-4171-4F0A-BBDC-231DED2F50F6Q35142935-3FF66697-0DA1-4F65-80B0-B8576EB9EF99Q35151625-1CF69050-0B31-4B50-99B4-A09E2B2FE902Q35196402-46C9BC9C-67BD-4939-8918-37494B95ECC6
P2860
Mice deficient in both Mn superoxide dismutase and glutathione peroxidase-1 have increased oxidative damage and a greater incidence of pathology but no reduction in longevity.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 23 September 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Mice deficient in both Mn supe ...... but no reduction in longevity.
@en
Mice deficient in both Mn supe ...... but no reduction in longevity.
@nl
type
label
Mice deficient in both Mn supe ...... but no reduction in longevity.
@en
Mice deficient in both Mn supe ...... but no reduction in longevity.
@nl
prefLabel
Mice deficient in both Mn supe ...... but no reduction in longevity.
@en
Mice deficient in both Mn supe ...... but no reduction in longevity.
@nl
P2093
P2860
P356
P1476
Mice deficient in both Mn supe ...... but no reduction in longevity.
@en
P2093
Alex Bokov
Arlan Richardson
Asish Chaudhuri
Charles Epstein
John W Baynes
Suzanne R Thorpe
Yiqiang Zhang
Yuji Ikeno
P2860
P304
P356
10.1093/GERONA/GLP132
P407
P577
2009-09-23T00:00:00Z